KR20170086770A - Incineration equipment for radioactive organic waste liquid - Google Patents

Abstract

The present invention can cut off the exhaust gas containing the radioactive organic component and the dilution liquid by stopping the operation of the incinerator immediately upon detection of the radiation when detecting the radiation from the condensate separated and discharged through the heat exchanger of the incinerator, The present invention provides a radioactive organic waste incineration facility capable of preventing air pollution and reducing condensate disposal cost by completely burning a combustible component by re-incineration of a condensate containing a radioactive organic component.
The radioactive waste liquid incinerator of the present invention is characterized in that a radiation detector is provided in a drain pipe through which a vapor-liquid separated condensate is discharged through a heat exchanger and a transfer pump is connected to the waste liquid tank and the condensate storage tank, When the radiation is detected, the operation of the incineration apparatus is stopped and the condensate in the condensate storage tank is controlled to be returned to the waste tank.

Description

TECHNICAL FIELD [0001] The present invention relates to a radioactive organic waste incineration apparatus,

The present invention relates to a radioactive organic waste incineration apparatus, and more particularly, to a radioactive waste incineration apparatus capable of detecting radiation from a condensate generated and discharged after combustion of a radioactive organic waste liquid to stop the operation of the incineration apparatus immediately upon detection of radiation, And the condensate is conveyed to the radioactive organic waste liquid storage tank so as to be re-burned.

Generally, radioactive organic waste is disposed of in accordance with legal regulations after completely combusting combustible components to minimize volume.

As a conventional incineration apparatus for burning the radioactive organic waste liquid, a waste incineration plant disclosed in Korean Patent Publication No. 1990-0010802 is known.

1, the conventional radioactive waste organic waste incinerator is provided for supplying a radioactive organic waste liquid to the evaporation chamber 1 and the waste liquid tank 11 and the pump 14 A heating mechanism 9 for heating and evaporating the waste liquid in the evaporator chamber 1; a heating mechanism 9 for burning the waste liquid vaporized in the evaporator chamber 1; (2) for combusting the vaporized waste liquid, a heat exchanger (39) for gas-liquid separating the gaseous waste liquid component burned in the combustion chamber (2), and a gas-liquid separator An exhaust pipe 38 for exhausting separated exhaust gas, a drain pipe 37 for exhausting the condensed liquid separated through the heat exchanger 39, and a condensate reservoir for storing the condensate discharged to the drain pipe 37 The tank 19, the pump 14 of the waste liquid supply means, the heating mechanism 9 for evaporation, And a control section 41 for controlling the operation of the combustion heater 4 for combustion.

The radioactive organic waste incinerator having such a constitution is configured such that the pump 14 of the waste liquid supply means is operated to supply the radioactive organic waste liquid stored in the waste liquid tank 11 into the evaporation chamber 1 and to operate the evaporation heating mechanism 9 So that the waste liquid is evaporated in the evaporation chamber 1 and the burning waste liquid is burned by operating the combustion heating mechanism 4.

The gaseous waste liquid component burned in the combustion chamber 2 is separated from the gas by the heat exchanger 39 so that the exhaust gas is discharged through the exhaust pipe 38 and the condensed liquid is discharged to the condensate storage tank 19 through the drain pipe 37 .

In this way, after the combustible component of the radioactive organic waste liquid is completely burnt to minimize the volume, it can be disposed of in accordance with legal regulations.

However, in the conventional radioactive waste organic waste incineration apparatus, the supply amount of the radioactive organic waste liquid, the evaporation temperature and the combustion temperature are preset and automatically operated in the control unit 41, If not, the radioactive organic components may be contained in the exhaust gas and the condensed liquid separated and discharged through the heat exchanger 39. Therefore, not only the problem of air pollution by the exhaust gas but also the problem of severe radioactive There is a problem of raising the disposal cost by the disposal procedure.

Disclosure of the Invention The present invention has been made in view of the above problems, and it is an object of the present invention to provide an incinerator which can detect radiation from a condensate separated and discharged through a heat exchanger of an incinerator, The radioactive organic waste solution which can prevent the emission of the exhaust gas and the condensed liquid contained therein and also can completely burn the combustible components by re-incinerating the condensate containing the radioactive organic components, To provide incineration facilities.

In order to attain the above object, the present invention provides an evaporation apparatus comprising: an evaporation chamber; a waste liquid supply means for supplying a radioactive organic waste liquid to the evaporation chamber, the waste liquid supply means including a waste tank and a pump; A heat exchanger for gas-liquid separation of the gaseous waste liquid component burned in the combustion chamber, and a heat exchanger for gas-liquid separation of the gaseous waste liquid component combusted in the combustion chamber, A condensate storage tank for storing a condensate discharged to the drain pipe, a pump for supplying the waste water to the pump, a pump for supplying the waste water to the pump, And a control unit for controlling the operation of the heating mechanism for evaporation and the heating mechanism for combustion Wherein the control unit is configured to stop the pump of the waste liquid supply unit, the heating unit for evaporation, and the heating unit for combustion when the radiation is detected from the radiation detector, in the drainage pipe, The waste incineration system of the present invention.

Further, the present invention may further comprise: a transfer pipe connecting the waste liquid tank and the condensate storage tank; and a transfer pump installed in the transfer pipe for transferring the condensate of the condensate storage tank to the waste tank, And stops the operation of the pump of the waste liquid supply means, the heating mechanism for evaporation and the heating mechanism for combustion when the radiation is detected, and controls the operation of the transfer pump so as to transfer the condensate in the condensate storage tank to the waste liquid tank Which is characterized by a device for incineration of radioactive organic waste liquid.

Further, in the present invention, when the waste liquid stored in the waste liquid tank is a waste liquid generating a noxious gas upon combustion, the heating mechanism for evaporation is activated and the combustion heating mechanism is stopped for operation. .

According to the characteristic feature of the present invention as described above, since the radiation detector is provided in the drain pipe through which the vapor-liquid separated condensate is discharged through the heat exchanger, when the radiation is detected from the condensate, the control unit can immediately stop the operation of the incinerator It is possible to prevent the exhaust gas and the condensate containing the radioactive organic component from being continuously discharged.

Further, according to the present invention, since the waste liquid tank and the condensate storage tank are connected by the return pipe and the condensate is returned to the waste liquid tank by the return pump, the waste liquid which is re- Furthermore, when the radiation is detected from the radiation detector, the pump of the waste liquid supply means, the heating device for evaporation and the heating device for combustion can be stopped and the condensate in the condensate storage tank can be returned to the waste liquid tank, There is an effect of preventing the condensate containing it from being inadvertently discarded by the manager in advance.

Further, in the present invention, when a waste liquid in which a harmful gas may be generated is treated in the process of burning a waste liquid, the heating mechanism for evaporation is operated and the heating mechanism for combustion is stopped to evaporate the waste liquid, Air pollution due to the generation of harmful gas can be prevented in advance.

1 is a schematic view showing a conventional incineration plant for a radioactive organic waste solution;
2 is a schematic view showing the incineration plant of a radioactive organic waste solution according to the present invention.
3 is a control flow chart for detecting radiation of a control unit in the radioactive organic waste incineration apparatus according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. As shown in the drawings, the incinerator of the present invention is provided with an evaporation chamber 1 and a radiator 2 for supplying a radioactive organic waste solution to the evaporation chamber 1, A waste liquid supply means including a tank 11 and a pump 14; a heating mechanism 9 for heating and evaporating the waste liquid in the evaporation chamber 1; (2) for burning the vaporized waste liquid, a heat exchanger (39) for gas-liquid separating the gaseous waste liquid component burned in the combustion chamber (2), and a heat exchanger An exhaust pipe 38 for exhausting the gas-liquid separated gas through the heat exchanger 39, a drain pipe 37 for discharging the condensed liquid separated through the heat exchanger 39, A condensate storage tank (19) for storing a discharged condensate; Class means may consist of a pump 14, a control unit 41 for controlling the operation of the evaporating heating mechanism 9 and the burn-up heating mechanism 4 for.

The present invention is also characterized in that the radiation pipe (37) is provided with a radiation detector (51) for detecting radiation from the condensate and connected to the control unit (41) The operation of the pump 14 of the waste liquid supply means, the heating mechanism for evaporation 9 and the heating mechanism for combustion 4 is stopped and the operation of the incineration apparatus is quickly programmed.

The waste liquid tank 11 and the condensate storage tank 19 are connected to each other by a return pipe 52. The return pipe 52 is provided with a return pump 53, So that the condensate can be returned to the waste tank (11).

At this time, when the radiation detector 51 detects radiation, the control unit 41 stops the operation of the pump 14, the evaporation heating mechanism 9 and the combustion heating mechanism 4 of the waste liquid supply unit At the same time, the transfer pump 53 is operated to program the condensate in the condensate storage tank 19 to be transferred to the waste tank 11 in advance.

Further, in the present invention, when the waste liquid stored in the waste liquid tank 11 is a waste liquid generating noxious gas such as NOx or SOx at the time of combustion, the evaporation heating mechanism 9 is operated and the combustion heating mechanism 4 ), It is preferable to stop the operation to evaporate only the waste liquid, and not to carry out the combustion treatment to prevent the generation of noxious gas.

Hereinafter, the operation of the present invention will be described. 2, the radioactive organic waste liquid is stored in the waste liquid tank 11, the pump 14 of the waste liquid supply means is operated to supply the radioactive organic waste liquid into the evaporation chamber 1, 9 is operated to evaporate the waste liquid in the evaporation chamber 1 and operate the combustion heating mechanism 4 to burn the vaporized waste liquid.

Subsequently, the gaseous waste liquid component burned in the combustion chamber 2 is gas-liquid separated by the heat exchanger 39 so that the exhaust gas is discharged through the exhaust pipe 38, and the condensed liquid is supplied to the condensate storage tank 19 through the drain pipe 37 .

At this time, a radiation detector 51 is provided in the discharge pipe 37, through which the vapor-liquid separated condensate is discharged through the heat exchanger 39, so that the radiation detector 51 can continuously detect radiation from the condensate. When the radiation is detected, the operation of the incineration apparatus is stopped immediately.

3, the control unit 41 continuously judges whether the radiation detector 51 has detected radiation from the condensate (S10), and when the radiation is detected from the condensate, the pump 41 ), The evaporation heating mechanism 9 and the combustion heating mechanism 4 are stopped to stop the operation of the incineration apparatus (S20). This can prevent exhaust gas and condensate containing radioactive organic components from being discharged any more.

At the same time, the control unit 41 controls the conveying pump 53 provided on the conveying pipe 52 connecting the waste liquid tank 11 and the condensate storage tank 19 to convey the condensed liquid to the waste liquid tank 11 (S30 ). Thus, when the cause of radiation detection is solved and the operation of the incineration apparatus is resumed, the condensate can be re-burned to further reduce the waste liquid to be disposed of, and the radioactive organic component contained in the condensate storage tank 19 It is possible to prevent the condensed liquid from being inadvertently discarded by the manager in advance.

When the waste liquid stored in the waste liquid tank 11 is a waste liquid generating noxious gas such as NOx or SOx during combustion, only the evaporation heating mechanism 9 is operated and the combustion heating mechanism 4 is stopped . Therefore, the waste liquid vaporized in the evaporation chamber 1 is sent to the heat exchanger 39 as it is without being burned, and is separated from the gas-liquid, so that the noxious gas generated in the combustion can be prevented from being discharged to the atmosphere and contaminated.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to be illustrative of the present invention and not to be construed as limiting the scope of the present invention as defined by the appended claims. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

1: Evaporation chamber 2: Combustion chamber
4: Heating device for combustion 9: Heating device for evaporation
11: waste tank 14: pump
19: Condensate storage tank 37: Drain pipe
38: Exhaust pipe 39: Heat exchanger
41: control unit 51: radiation detector
52: return pipe 53: return pump

Claims (4)

A waste liquid supply means having a waste liquid tank and a pump for supplying a radioactive organic waste liquid to the evaporation chamber, a heating mechanism for evaporating the waste liquid in the evaporation chamber by heating the waste liquid, A heat exchanger for gas-liquid separating the gaseous waste liquid component burned in the combustion chamber, and a heat exchanger for discharging the gas-liquid separated exhaust gas through the heat exchanger A condensate storage tank for storing a condensate discharged from the drain pipe; a pump for the waste liquid supply unit; a heating mechanism for evaporating and a heating mechanism for combustion; And a control unit for controlling the radioactive organic waste incinerator,
Wherein the control unit stops the operation of the pump of the waste liquid supply unit, the heating unit for evaporation, and the heating unit for combustion when the radiation is detected from the radiation detector. Organic waste liquid incinerator. 2. The waste water treatment system according to claim 1, further comprising a return pipe connecting the waste liquid tank and the condensate storage tank, and a return pump provided in the return pipe for returning the condensate of the condensate storage tank to the waste tank, Waste incinerator. 3. The apparatus according to claim 2, wherein when the radiation is detected from the radiation detector, the control unit stops the operation of the pump of the waste liquid supply unit, the heating mechanism for evaporation and the heating mechanism for combustion, And controls the operation of the transfer pump to transfer the waste liquid to the tank. The apparatus according to any one of claims 1 to 3, wherein when the waste liquid stored in the waste liquid tank is a waste liquid generating a noxious gas upon combustion, the heating mechanism for evaporation is operated and the heating mechanism for combustion is stopped Wherein the radioactive-organic waste-liquid incinerator comprises:

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